Masking removal system and method

What is claimed is: 1. A machine for automated removal of strips of masking film from a masked glazing pane, comprising a cutting head and a processing station, the processing station constructed to retain a glazing pane having opposed first and second surfaces in a processing position wherein the first surface of the glazing pane is oriented toward the cutting head, the cutting head being movable in an X direction and in a Y direction, the X and Y directions being offset from each other by an angle of 90 degrees, the cutting head having two spaced-apart cutters, the cutting head being adjustable between a first configuration and a second configuration, such that when the cutting head is in the first configuration the two spaced-apart cutters are operable to make two respective cuts, elongated in the X direction, in a masking film on the first surface of the glazing pane to thereby cut a strip from the masking film, and when the cutting head is in the second configuration the two spaced-apart cutters are operable to make two respective cuts, elongated in the Y direction, in the masking film on the first surface of the glazing pane to thereby cut a strip from such masking film, wherein the two spaced-apart cutters are two cutting wheels. 2. The machine of claim 1 wherein the machine further comprises a vacuum having a vacuum intake and an elongated vacuum line, the vacuum constructed such that: (i) the vacuum intake receives strips cut from the masking film by the cutting head, and (ii) the elongated vacuum line carries the strips away from the cutting head. 3. The machine of claim 2 wherein the vacuum intake is located on the cutting head, and the elongated vacuum line extends from the cutting head to a strip storage area. 4. The machine of claim 1 comprising a vertical beam and two horizontal beams, the cutting head mounted so as to be moveable vertically along the vertical beam, and the vertical beam mounted so as to be moveable horizontally along the two horizontal beams. 5. A machine for automated removal of strips of masking film from a masked glazing pane, comprising a cutting head and a processing station, the processing station constructed to retain a glazing pane having opposed first and second surfaces in a processing position wherein the first surface of the glazing pane is oriented toward the cutting head, the cutting head being movable in an X direction and in a Y direction, the X and Y directions being offset from each other by an angle of 90 degrees, the cutting head having two spaced-apart cutters, the cutting head being adjustable between a first configuration and a second configuration, such that when the cutting head is in the first configuration the two spaced-apart cutters are operable to make two respective cuts, elongated in the X direction, in a masking film on the first surface of the glazing pane to thereby cut a strip from the masking film, and when the cutting head is in the second configuration the two spaced-apart cutters are operable to make two respective cuts, elongated in the Y direction, in the masking film on the first surface of the glazing pane to thereby cut a strip from such masking film, the machine comprising an upright platen constructed to support the second surface of the glazing pane, and a conveyor adjacent a bottom region of the upright platen, the conveyor constructed to support a bottom edge of the glazing pane. 6. The machine of claim 5 wherein the upright platen has one or more suction devices operable to retain the glazing pane in the processing position while the cutting head moves relative to the glazing pane. 7. The machine of claim 1 wherein the cutting head is rotatable between the first and second configurations. 8. The machine of claim 1 wherein the two cutting wheels each have a diameter of at least two inches. 9. A machine for automated removal of strips of masking film from a masked glazing pane, comprising a cutting head and a processing station, the processing station constructed to retain a glazing pane having opposed first and second surfaces in a processing position wherein the first surface of the glazing pane is oriented toward the cutting head, the cutting head being movable in an X direction and in a Y direction, the X and Y directions being offset from each other by an angle of 90 degrees, the cutting head having two spaced-apart cutters, the cutting head being adjustable between a first configuration and a second configuration, such that when the cutting head is in the first configuration the two spaced-apart cutters are operable to make two respective cuts, elongated in the X direction, in a masking film on the first surface of the glazing pane to thereby cut a strip from the masking film, and when the cutting head is in the second configuration the two spaced-apart cutters are operable to make two respective cuts, elongated in the Y direction, in the masking film on the first surface of the glazing pane to thereby cut a strip from such masking film, wherein the cutting head further comprises a claw constructed to lift an edge region of the masking film away from the first surface of the glazing pane. 10. The machine of claim 9 wherein the claw is movable in a Z direction, the Z direction being orthogonal to both the X and Y directions, such that the claw is movable toward and away from the glazing pane. 11. The machine of claim 9 wherein the two cutters are located on a leading portion of the cutting head, and the claw is located on a trailing portion of the cutting head, such that when the cutting head is moved along the masking film on the first surface of the glazing pane to cut a strip from the masking film, the two cutters are positioned ahead of the claw. 12. The machine of claim 9 further comprising a nozzle oriented to deliver a gas stream toward the edge region of the masking film. 13. The machine of claim 12 wherein the two cutters, the claw, and the nozzle are located on the cutting head, the claw being positioned between the two cutters and the nozzle, such that when the cutting head is moved along the masking film on the first surface of the glazing pane to cut a strip from the masking film, the two cutters are positioned ahead of the claw, and the claw is positioned ahead of the nozzle. 14. A machine for automated removal of strips of masking film from a masked glazing pane, comprising a cutting head and a processing station, the processing station constructed to retain a glazing pane having opposed first and second surfaces in a processing position wherein the first surface of the glazing pane is oriented toward the cutting head, the cutting head being movable in an X direction and in a Y direction, the X and Y directions being offset from each other by an angle of 90 degrees, the cutting head having two spaced-apart cutters, the cutting head being adjustable between a first configuration and a second configuration, such that when the cutting head is in the first configuration the two spaced-apart cutters are operable to make two respective cuts, elongated in the X direction, in a masking film on the first surface of the glazing pane to thereby cut a strip from the masking film, and when the cutting head is in the second configuration the two spaced-apart cutters are operable to make two respective cuts, elongated in the Y direction, in the masking film on the first surface of the glazing pane to thereby cut a strip from such masking film, the machine comprising a knurl tool located between the two spaced-apart cutters, the knurl tool being operable to knurl the masking film in a location between the two respective cuts elongated in the X direction, when the cutting head